KR200444765Y1 - The fan coil unit attached oxygen humidifier by waste heat collect type - Google Patents

Abstract

The present invention introduces a supply water pipe (62) having a supply water power valve (61) to the humidifier (60) provided at the top of one side space of the main body casing (101), and is drawn out of the upper part of the humidifier (60), and the main body casing (101). A plurality of humidification supply nozzles 63 are formed in the pipes introduced at the upper end of the air-conditioning and heat exchanger 50 located at the lower center, and the oxygen supply motor valve 71 is provided from the oxygen generator 70 provided separately from the main body 100. Is provided with an oxygen supply pipe 72 is installed in association with the upper part of the fan motor 10 in the upper and upper center of the main body casing via the humidifier installation portion, in the middle of the rear space of the main body 101 facing the installed humidifier The heat exchange element 40 having a rectangular box structure is installed, and the rear air intake port and the outdoor unit are provided through the electric damper A 23 provided on the side of the intake fan casing 31 between the humidifier 60 and the fan motor 10. Through the air inlet of the heat exchange element unit 40 The indoor exhaust fan 20 is assembled and installed in the exhaust fan casing 21 in which the indoor exhaust pipe 22a is formed, and the outdoor air suction pipe passes through the heat exchange element portion 40 to the side of the exhaust fan casing 21. After the flow into (32b), the indoor heat intake fan 30 is installed in the intake fan casing 31, in which the electric damper B 33 is mounted on the fan motor axial suction hole, and the waste heat recovery type in which the oxygen humidifier is installed. Air conditioning unit.

Oxygen, humidifier, waste heat recovery type, air conditioning unit

Description

The fan coil unit attached oxygen humidifier by waste heat collect type}

The present invention is a waste heat recovery type air-conditioning unit equipped with an oxygen dehumidifier. Specifically, the indoor air is discharged to supply air to the outdoor supply air in the process of discharging indoor polluted air to the outside and supplying fresh air to the outside. The present invention relates to a waste heat recovery air-conditioning unit having a waste heat recovery ventilation unit for recovering through a heat exchanger, an oxygen supply, and a humidifier.

Reference 1 KR 393529 Y1 2005.08.22

In general, the air conditioner is a heat exchanger that exchanges the indoor air with a cold and hot air from the central supply power plant or district heating center finally receiving a heat source such as refrigerant gas, hot and cold water, air, steam.

Alternatively, many air-conditioning units are installed to suck air in the room through a suction port and pass a radiator through which cold / hot water flows to blow the converted cold / hot air to the discharge port.

The air-conditioning unit as described above is a floor-mounted type installed on the floor and a ceiling type installed on the ceiling, and is applied to various institutions, schools, and large buildings.

In the air-conditioning unit as described above, the air-heating unit of the top suction bottom discharge type has been registered in the energy-saving type as compared to the existing top discharge bottom suction type air-conditioning unit as in the prior art of the document.

The conventional upper suction lower discharge type air-conditioning unit is attached as shown in Fig. 1, the blower of the broa assembled integrally with the fan motor placed in the fan motor mount at the middle height inside the main body is installed through the bottom of the broach plate. And a filter at the intake hole of the broa, inclined to install a heat exchanger under the broach plate, a condensate support under the heat exchanger, a condensate support with a drain at the bottom of the condensate support, and a lower portion at the front of the main body. It has been made of a lower discharge type air-conditioning unit, characterized in that the configuration of the heat exchange blow intake module formed in the air inlet of the blow grill grille, the upstream intake grill in the upper portion.

The lower discharging air-conditioning unit as described above has been widely distributed due to the energy-saving effect compared to the existing lower-heating upper discharging air-conditioning unit, but recently, the air-conditioning devices for recovering waste heat during indoor air ventilation work are separately supplied. There is a situation.

As these devices are separately supplied, air-conditioning and air-conditioning devices that recover waste heat during the recent indoor air ventilation work are installed separately from the air-conditioning unit, the waste heat recovery ventilation unit, the oxygen supply unit, and the humidifier. In addition, since the fan motor must be installed separately at the same time as the construction cost burden due to securing the installation space, the use of power is also twice as inefficient.

Therefore, in the present invention, the structure of the cooling and heating unit, which has been widely distributed in the past, has been greatly improved, and the space occupied by the exterior is not significantly different from that of the conventional cooling and heating unit. Major facilities such as the condensate support under the heat exchanger and the bottom of the heat exchanger are utilized to make the best use of the empty spaces on the left and right sides. The purpose of the present invention is to provide a waste heat recovery air-conditioning unit equipped with an oxygen dehumidifier that can reduce energy consumption, reduce installation area, and reduce facility investment costs.

In the waste heat recovery type air-conditioning unit equipped with the oxygen humidifier according to the present invention as described above, in the conventional air-conditioning and waste heat recovery ventilation operation, the air-conditioning unit and the waste heat recovery ventilation unit are separately installed and installed space, equipment price, construction cost, and installation space. The construction cost is secured and the fan motor is also operated separately at the same time, consuming twice as much power. On the other hand, the present design uses only one fan motor for each product because it controls ventilation, oxygen supply, cooling and heating, and humidity with a single device, thus reducing power consumption by 1/2, as well as saving raw materials and saving energy. The investment is also very useful in terms of savings.

In order to achieve the above object, it will be described one embodiment of the present invention by the accompanying drawings as follows.

1 is a perspective view of a conventional air conditioning unit, and FIG. 2 is a side cross-sectional view of a conventional air conditioning unit, and a front layout of a main portion of the conventional fan motor support unit 8a and the condensate support 14 are generally installed in a bottom discharge type air conditioning unit. In the present invention, detailed illustrations thereof are omitted.

Figure 3 is a front view of the state of use of the present invention, Figure 4 is a rear configuration diagram showing a partially cut internal arrangement of the present invention, Figure 5 is an excerpt of the humidification portion of the present invention, Figure 6 is the main part of the present invention oxygen Fig. 7 is an excerpt of an essential part of the generating unit, Fig. 7 is an installation and use state reference diagram according to the present invention, Fig. 8 is a reference view of a heat exchange element which is the main part of the present invention. 9 is a reference diagram of a fan-mounted electric damper part of the present invention, ii) is an installation state reference diagram, ii) is an outdoor air suction state reference diagram, and iii) is an indoor air suction state reference diagram.

A fan motor 10 installed on a fan motor mounting base provided between the main body 100 and the body casing 101 of a rectangular cabinet type; A fan / heater heat exchanger (50) installed below the fan motor at an upper portion of the condensate support; In the conventional lower discharge type air-conditioning unit in which the inlet port is provided with a grill 35 at the front lower part of the main body and a filter 34 at the intake grill disposed at the upper part at the rear.

A humidifier 60 provided at the top of one side space of the main body casing 101 is introduced with a supply water pipe 62 having a supply water power valve 61, and is drawn out from the upper part of the humidifier 60, and is located at the bottom center of the main body casing 101. A plurality of humidification supply nozzles 63 are formed in the pipe introduced at the upper end of the air-conditioning heat exchanger 50 located at the upper part, and the oxygen supply motor valve 71 is provided from the oxygen generator 70 provided separately from the main body 100. The oxygen supply pipe 72 is connected to the upper part of the fan motor 10 in the upper and lower center portions of the main body casing via the humidifier mounting unit, and a rectangular box is located in the middle of the rear side space of the main body casing 101 facing the installed humidifier. A heat exchange element 40 having a structure is installed, and heat exchanges through the rear intake port and the outdoor unit through the electric damper A 23 provided on the side of the intake fan casing 31 between the humidifier 60 and the fan motor 10. Associated with the indoor air intake of the element section 40 The indoor exhaust fan 20 is assembled and installed in the exhaust fan casing 21 in which the indoor exhaust pipe 22a is formed, and the outdoor air suction pipe 32b passes through the heat exchange element 40 to the side of the exhaust fan casing 21. After the inflow into the fan, the indoor intake fan 30 is assembled in the intake fan casing 31 in which the electric damper B 33 is mounted above the fan motor axial suction hole.

The humidifier 60 has an electron electrode 60a and a water level sensor 60b installed at an upper casing, and a drain pipe 60d which is connected to an association provided with a drain valve 60c at the bottom of the casing and an association drawn out from the upper casing. ) Is associated with the condensate drain port provided in the main body.

On the other hand, the heat exchange element 42 of the cube on which the upper and lower surfaces and the heat exchange element filter 43 is inserted into one side surface portion of the cross type in which multiple pipes are stacked so as to be perpendicular to each other; A heat exchanging element part casing (41) formed of four compartments (41a) in which each of the heat exchanging elements has a predetermined extension side surface and a surface intersecting a predetermined height in a corner direction at an upper portion thereof to form a space; An indoor exhaust pipe 22a and an outdoor exhaust pipe 22b in each compartment of the upper surface of the heat exchange element portion casing; The indoor suction pipe 32a and the outdoor suction pipe 32b are installed to face each other, but the heat exchange element unit 43 is provided with a heat exchange element filter 43 only in the heat exchange element unit 42 inside the heat exchange element unit casing in which the outdoor suction tube is installed. 40 is formed.

In addition, the electric damper B 33 for operating the damper rod 33b above the suction hole in the axial direction of the fan motor is based on the damper pin 33d having the flexible hose 33c formed in the cover to shield the suction hole. It works.

The flexible hose 33c is associated with the indoor suction pipe 32a of the heat exchange element, so that the electric damper B 33 sucks outdoor air through the flexible hose when it is completely closed, and the flexible hose 33c when fully opened. ) Is closed and only indoor air is sucked through the filter 34 to the intake grill disposed upward in the rear of the main body 100 through the suction hole in the fan motor axial direction.

In addition, the electric damper A (23) is a damper installed in the pipe of the indoor exhaust pipe (22a) between the indoor exhaust fan 20 and the heat exchange element portion 40, the closed state during the heating and cooling operation, the open state is indoor air This is the state when it is exhausted for ventilation.

In the drawings, reference numeral 51 denotes a conventional heat source supply pipe associated with an air conditioning heat exchanger, and '52' denotes a conventional heat source recovery pipe.

Looking at one operation state of the present invention configured as described above are as follows.

Example 1

During the heating and cooling operation, the electric damper B (33) operates by opening the indoor air intake, and the electric damper A (23) also operates by closing during the heating and cooling operation, and the fan is operated by the fan motor (10). When the heat source supplied through 51) passes through the cooling / heating heat exchanger (50), the fan is operated by the fan motor (10), and heat-exchanges with the sent air to move the heat energy by the air and lose the heat energy. The return energy is returned to the recovery pipe 52, and the heat energy obtained by the moving air from the air conditioning heat exchanger is heated and cooled at the corresponding place.

    Example 2

In the waste heat recovery ventilator operation, the electric damper B 33 is operated closed for the outdoor air intake ventilation operation, and the electric damper A 23 is also operated by the indoor air exhaust ventilation operation open, and then the fan is operated by the fan motor 10. Operation, when the fresh air of the outside is sucked in the outdoor suction pipe 32b of the heat exchange element unit 40 and passes through the heat exchange element 42, through the heat exchange element of the heat exchange element unit 40 through the indoor exhaust pipe 22a. Waste heat from polluted air thrown into the outdoor exhaust pipe (22b) is sent to the indoor suction pipe (32a), which loses its heat energy to the fresh air from the outside, and not only maintains indoor air comfortably, but also discards the heat energy. It is a driving method to recover.

      Example 3

During air-conditioning and waste heat recovery ventilation operation, the electric damper B (33) operates to close the outdoor air intake ventilation operation, and the electric damper A (23) also operates to open the indoor air exhaust ventilation operation, and then the fan is turned on by the fan motor. When the fresh air in the outdoor is sucked through the operation outdoor suction pipe 32b and passes through the heat exchange element 42 of the heat exchange element portion 40, the outdoor air flow passage 22a through the heat exchange element portion 40 at the exhaust port through the indoor exhaust pipe 22a. Waste heat in the polluted air discarded by the exhaust pipe (22b) is sent to the indoor suction pipe (32a), which loses its heat energy to the fresh air from outside, and keeps indoor air pleasant and provides a heating and cooling heat source (51). When the heat source supplied through) passes through the air conditioning heat exchanger (50), the fan is operated by the fan motor to exchange heat with the air sent to move the heat energy to the air, and the heat / heating heat source that has lost heat energy is returned to the heat source recovery pipe (52).It may be, the thermal energy obtained by the movement in the air-conditioning heat exchanger and the air conditioning in the area.

Example 4

During the humidification operation, water is supplied to the humidifier 60 through the feed water electric valve 61 installed in the feed water pipe 62 by the water level sensor 62, and power is supplied to the electromagnetic electrode 60a to produce and humidify the water vapor. Water vapor passing through the supply pipe 63 is injected by the humidification nozzle, and is evenly supplied to the room by the fan motor.

Therefore, humidification operation is possible even during heating, cooling, ventilation and oxygen supply operation.

       Example 5

In the oxygen supply operation, oxygen produced by the oxygen generator 70 is injected into the oxygen supply nozzle 73 through the oxygen supply electric valve 71 installed in the oxygen supply pipe 72 and is evenly supplied to the room by the fan motor.

Oxygen supply operation is also possible during cooling, heating, ventilation and humidification operation.

Through the embodiment of the waste heat recovery type air-conditioning unit equipped with the oxygen dehumidifier according to the present invention carried out as described above, within the range of not changing the gist of the present invention, the air-heating unit of the top suction bottom discharge type is discharged from the bottom suction upper part. The fan motor, the indoor air supply fan, and the indoor exhaust fan are arranged underneath, and the air-conditioning heat exchanger is disposed above, and the indoor exhaust pipe according to the present embodiment has an upper portion. The air intake pipe of the indoor air supply fan is connected to the heat exchange element part through the air-conditioning heat exchanger disposed in the elliptical connection from the lower part to the upper part unlike the present invention. Heating and cooling unit of the heating and heating unit of the upper suction bottom discharge type within the scope that does not change the gist of the present invention and It will be designed to be as predictable same category.

1 is a perspective view of a conventional air conditioning unit

Figure 2 is a side cross-sectional view of the conventional heating and cooling unit and excerpts front layout view

3 is a front view of a state of use of the present invention

Figure 4 is a rear configuration diagram showing a partially cut internal arrangement of the present invention

Figure 5 is an excerpt of the humidification generator portion of the present invention

Figure 6 is an excerpt of the urine extract portion of the present invention

Figure 7 is an installation and use state according to the present invention

8 is a reference perspective view of a heat exchange element as a main part of the present invention, i) an external perspective view of the heat exchange element, and ii) a partial cutout external perspective view of the heat exchanger.

9 is a reference diagram of the fan-mounted electric damper part of the present invention iii) is an installation state reference diagram, ii) is an outdoor unit suction state reference diagram, iii) an indoor unit suction state reference diagram.

Figure 10 is a rear view showing the internal arrangement of the partially cut-out of the air-conditioning unit of the lower suction upper discharge type

※ Explanation of code for main part of drawing

100: the body

10: fan motor

20: indoor exhaust fan 21: exhaust fan casing

   22a: indoor exhaust pipe 22b: outdoor exhaust pipe

   23: Electric damper A

30: indoor intake fan 31: intake fan casing

   32a: indoor suction pipe 32b: outdoor suction pipe

33: Electric damper B 34: Filter
It is grill 35

40: heat exchange element portion 41: heat exchange element portion casing

   42: heat exchange element 43: element filter

   44: element filter exchange opening

50: air conditioning heat exchanger 51: heat source supply pipe

   52: heat source collection pipe

60: humidifier 61: supply manual power valve

   62: supply water pipe 63: humidification supply nozzle

70: oxygen generator 71: oxygen supply motor valve

   72: oxygen supply pipe 73: oxygen supply nozzle

Claims (4)

A fan motor 10 installed on a fan motor mounting base provided between the main body 100 and the body casing 101 of a rectangular cabinet type; A fan / heater heat exchanger (50) installed below the fan motor at an upper portion of the condensate support; In the conventional lower discharge type air-conditioning unit in which the inlet port is provided with a grill 35 at the front lower part of the main body and a filter 34 at the intake grill disposed at the upper part at the rear. A humidifier 60 provided at the top of one side space of the main body casing 101 is introduced with a supply water pipe 62 having a supply water power valve 61, and is drawn out from the upper part of the humidifier 60, and is located at the bottom center of the main body casing 101. A plurality of humidification supply nozzles 63 are formed in the pipe introduced at the upper end of the air-conditioning heat exchanger 50 located at the upper part, and the oxygen supply motor valve 71 is provided from the oxygen generator 70 provided separately from the main body 100. The oxygen supply pipe 72 is connected to the upper part of the fan motor 10 in the upper and lower center portions of the main body casing via the humidifier mounting unit, and a rectangular box is located in the middle of the rear side space of the main body casing 101 facing the installed humidifier. A heat exchange element 40 having a structure is installed, and heat exchanges through the rear intake port and the outdoor unit through the electric damper A 23 provided on the side of the intake fan casing 31 between the humidifier 60 and the fan motor 10. Associated with the indoor air intake of the element section 40 The indoor exhaust fan 20 is assembled and installed in the exhaust fan casing 21 in which the indoor exhaust pipe 22a is formed, and the outdoor air suction pipe 32b passes through the heat exchange element 40 to the side of the exhaust fan casing 21. ), And the waste heat recovery air-conditioning unit equipped with an oxygen humidifier is installed in the intake fan casing 31 in which the electric damper B 33 is mounted on the fan motor axial suction hole. . The humidifier (60) of the humidifier (60) has an electron electrode (60a) and a water level sensor (60b) is installed in the upper casing, the casing is provided with a drain valve (60c) at the bottom of the casing and the casing and joints drawn from the upper casing Waste heat recovery type air-conditioning unit equipped with an oxygen dehumidifier, characterized in that the drain pipe (60d) is connected to the condensate drain port provided in the main body. According to claim 1, The heat exchange element unit 40 is a cube-shaped heat exchange element 42 in which the heat exchange element filter 43 is inserted into one side surface of the cross-type that the upper and lower surfaces are closed and the pipes are stacked multiple times orthogonal to each other; A heat exchanging element part casing (41) formed of four compartments (41a) in which each of the heat exchanging elements has a predetermined extension side surface and a surface intersecting a predetermined height in a corner direction at an upper portion thereof to form a space; An indoor exhaust pipe 22a and an outdoor exhaust pipe 22b in each compartment of the upper surface of the heat exchange element portion casing; The indoor suction pipe 32a and the outdoor suction pipe 32b are installed to face each other, but the heat exchange element filter 43 is provided only in the heat exchange element portion 42 inside the heat exchange element portion casing in which the outdoor suction tube is installed. Waste heat recovery type air conditioning unit installed. The damper pin 33d of claim 1, wherein the electric damper rod 33b for operating the damper rod 33b above the suction hole in the axial direction of the fan motor is provided with a flexible hose 33c formed in the cover to shield the suction hole. Waste heat recovery type air-conditioning unit equipped with an oxygen dehumidifier, characterized in that configured to operate on the basis of.

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